Construction of a novel phagemid to produce custom DNA origami scaffolds. PM Nafisi, T Aksel, SM Douglas (2018) Synthetic Biology. ysy015 preprint – publisher (in press)

Perspective: Bringing proteins into the fold. SM Douglas (2017) Science. 355:1261–2 pdf – pubmed – publisher

Folding complex DNA nanostructures from limited sets of reusable sequences. S Niekamp, K Blumer, PM Nafisi, K Tsui, J Garbutt, SM Douglas (2016) Nucleic Acids Res. 44:e102 pdf – pubmed – publisher

A Logic-Gated Nanorobot for Targeted Transport of Molecular Payloads. SM Douglas, I Bachelet, GM Church (2012) Science. 335:831–4 pdf – pubmed – publisher

Multilayer DNA Origami Packed on a Square Lattice. Y Ke, SM Douglas, M Liu, J Sharma, A Cheng, A Leung, Y Liu, WM Shih, H Yan. (2009) JACS. 131: 15903-8 pdf – pubmed – publisher

Folding DNA Into Twisted and Curved Nanoscale Shapes. H Dietz, SM Douglas, WM Shih (2009) Science. 325:725–730 pdfpubmedpublisher

Rapid Prototyping of Three-Dimensional DNA-Origami Shapes With caDNAno. SM Douglas, AH Marblestone, S Teerapittayanon, A Vazquez, GM Church, WM Shih (2009) Nucleic Acids Res. 37:5001–6 pdf – pubmed – publisher

Self-Assembly of DNA Into Nanoscale Three-Dimensonal Shapes. SM Douglas, H Dietz, T Liedl, B Högberg, F Graf, WM Shih (2009) Nature. 459:414–8 pdfpubmedpublisher

DNA-Nanotube-Induced Alignment of Membrane Proteins for NMR Structure Determination. SM Douglas, JJ Chou, WM Shih (2007) PNAS 104:6644–8 pdfpubmedpublisher

For older publications, visit this page.

University of California, San Francisco

Dept. of Cellular and Molecular Mad Science
Mission Bay — Genentech Hall